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彭扬

来源:竞彩足球计算器 发布者:李梦溪发布时间:2019-03-28浏览次数:4533


特聘教授,竞彩足球比分、能源与材料创新研究院                                     

副院长,竞彩足球比分,苏州大学

电子邮箱: ypeng@suda.edu.cn, 电话: 18913136889

课题组链接:http://catalysis.energy.suda.edu.cn/main.htm


育背景

2005-2010无机化学博士,美国加州大学戴维斯分校,导师:Philip. P Power

2001-2004无机化学硕士,南京大学化学化工学院,导师:郑丽敏

1997-2001无机化学学士,南京大学化学化工学院

职业经历

2018-至今副院长,竞彩足球比分,苏州大学

2016-至今特聘教授,苏州大学

2013-2015高级研发员,美国哈利伯顿公司

2012-2013助理研究员,美国宾夕法尼亚材料工程系/美国国家标准技术局中子研究中心(NIST)

2010-2012博士后美国马里兰大学化学生物化学系

研究方向

1、新型二维材料及其异质结构的设计、合成及其催化应用

2、三维金属有机框架材料化学修饰与功能化

3、光、电催化二氧化碳资源化利用

个人荣誉及人才项目

2017年江苏省“双创人才”计划

2016年获国家人力资源和社会保障部高层次留学人才回国资助

2016年入选江苏省六大高峰人才计划

2015年获美国哈里伯顿技术创新奖

2014年度美国哈里伯顿MVP 奖(Maximum Value-Added Performance)

2010美国加州大学戴维斯分校优秀毕业论文奖

2009 国家优秀自费留学生奖学金

代表期刊论文

  1. Xiong, L.; Sun, Z.; Zhang, X.; Zhao, L.; Huang, P.; Chen, X.; Jin, H.; Sun, H.; Lian, Y.; Deng, Z*.; Rummerli, M. H.; Yin, W.*; Zhang, D.; Wang, S.; Peng, Y*. Octahedral gold-silver nanoframes with rich crystalline defects for efficient methanol oxidation manifesting a CO-promoting effect”; Nature Communications, 10, 3782 (2019)

  2. Sun, H.; Min, Y.; Yang, W.; Lian, Y.; Lin, L.; Feng, K.; Deng, Z.*; Chen, M.; Zhong, J.; Xu, L.*; Peng, Y*. “Morphological and Electronic Tuning of Ni2P through Iron Doping toward Highly Efficient Water Splitting”; ACS Catalysis, 9, 8882-8892 (2019).

  3. Mu, Q.; Zhu, W.; Li, X.; Zhang, C.; Su, Y.; Lian, Y.; Qi, P.; Deng, Z.; Zhang, D.; Wang, S.; Peng, Y*. “Electrostatic Charge Transfer for Boosting the Photocatalytic CO2 Reduction on Metal Centers of 2D MOF/rGO Heterostructure”; Applied Catalysis B Environmental, in press.

  4. Sun, H.; Li, Q.; Lian, Y.; Zhang, C.; Qi, P.; Mu, Q.; Jin, H.; Zhang, B.; Chen, M.; Deng Z.; Peng, Y*. “Highly Efficient Water Splitting Driven by Zinc-air Batteries with a Single Catalyst Incorporating Rich Active Species”; Applied Catalysis B Environmental, in press.

  5. Gu, Y.; Yan, G.; Lian, Y.; Qi, P.; Mu, Q.; Zhang, C.; Deng, Z.*; Peng, Y*. “MnIII-enriched α-MnO2 nanowires as efficient bifunctional oxygen catalysts for rechargeable Zn-air batteries”; Energy Storage Materials, in press.

  6. Yang, C.; Yao, Y.; Lian Y.; Chen, Y.; Shah, R.; Zhao, X.*; Chen, M.; Peng, Y.*; Deng, Z.* “A double‐buffering strategy to boost the lithium storage of botryoid MnOx/C anodes”; Small, 15 (16), 1900015 (2019).

  7. Qi, P.; Huang, Y.; Yao, Y.; Li, Q.; Lian, Y.; Lin, L.; Wang, X.; Gu, Y.; Li, L.; Deng, Z.*; Peng, Y.*; Liu, Z. “Wax-assisted crackfree transfer of monolayer CVD graphene: Extending from standalone to supported copper substrates”; Applied Surface Science, 493, 81–86 (2019).

  8. Ma, Y.; Gu, Y.; Yao, Y.; Jin, H.; Zhao, X.; Yuan, X.; Lian, Y.; Qi, P.; Shah, R.; Peng, Y.; Deng, Z.* “Alkaliphilic Cu2O nanowires on copper foam for hosting Li/Na as ultrastable alkali-metal anodes”; Journal of Materials Chemistry A, In press (2019).

  9. Abdul Razzaq, A.; Yao, Y.; Shah, R.; Qi, P.; Miao, L.; Chen, M.; Zhao, X.; Peng, Y.; Deng, Z*. “High-performance lithium sulfur batteries enabled by a synergy between sulfur and carbon nanotubes”; Energy Storage Materials, 16, 194-202 (2019).

  10. Xia, Z.; Sun, H.; He, X.; Sun, Z.; Lu, C.; Li, J.; Peng, Y.*; Kostecki, R.; Dou, S.; Sun, J.*; Liu, Z. “In situ construction of CoSe2@vertical-oriented graphene arrays as self-supporting electrodes for sodium ion capacitors and electorcatlytic oxygen evolution”; Nano Energy, 60, 385-392 (2019).

  11. Ma, B.; Peng, Y.*; Ma, D.*; Deng, Z.; Lu, Z. “Boron-doped InSe monolayer as a promising electrocatalyst for nitrogen reduction into ammonia at ambient conditions”;Applied Surface Science, 495, 143463 (2019).

  12. Yao, Y.; Zhao, X.; Razzaq, A.; Gu, Y.; Yuan, X.; Shah, R.; Lian, Y.; Lei, J.; Mu, Q.; Ma, Y.; Peng, Y.; Deng, Z.*; Liu, Z. “Mosaic rGO layers on lithium metal anodes for the effective mediation of lithium plating and stripping”; Journal of Materials Chemistry A, 7, 12214-12224 (2019).

  13. Chen, Y.; Yuan, X.; Yang, C.; Lian, Y.; Razzaq, A. A.; Shah, R.; Guo, J.; Zhao, X.; Peng, Y.;Deng, Z*. “γ-Fe2O3 nanoparticles embedded in porous carbon fibers as binder-free anodes for high-performance lithium and sodium ion batteries”; Journal of Alloys and Compounds, 777, 127-134 (2019).

  14. Lian, Y.; Sun, H.; Wang, X.; Qi, P.; Mu, Q.; Chen, Y.; Ye, J.; Zhao, X.; Deng, Z.*; Peng, Y.* “Carved nanoframes of cobalt–iron bimetal phosphide as a bifunctional electrocatalyst for efficient overall water splitting”; Chemical Science, 10, 464-474 (2019).

  15. Sun, H.; Lian, Y.; Yang, C.; Xiong, L.; Qi, P.; Mu, Q.; Zhao, X.; Guo, J.; Deng, Z*.;Peng, Y*. Hierarchical Nickel-Carbon Structure Templated by Metal-Organic Frameworks for Efficient Overall Water Splitting; Energy & Environmental Science, 11,2363 – 2371 (2018).

  16. Chen, Y.; Zhao, X.; Liu, Y.; Razzaq, A. A.; Haridas, A. K.; Cho, K.-K.; Peng, Y.; Deng, Z.*;Ahn, J.-H*. γ-Fe2O3 nanoparticles aligned in porous carbon nanofibers towards long life-span lithium ion batteries; Electrochimica Acta, 289, 264-271 (2018).

  17. Mu, Q.; Zhu, W.; Yan, G.; Lian, Y.; Yao, Y.; Li, Q.; Tian, Y.; Zhang, P.; Deng, Z*.;Peng, Y*.Activity and Selectivity Regulation through the Dimension of Cobalt Active Sites in Photocatalytic CO2 Reduction; Journal of Materials Chemistry A, 6, 21110-21119 (2018).

  18. Shah, R.; Gu, J.-Y.; Razzaq, A. A.; Zhao, X.; Shen, X.-W.; Miao, L.; Yan, C.-L.; Peng, Y*.;Deng, Z*. Freestanding Electrode Pairs with High Areal Density Fabricated under High Pressure and High Temperature for Flexible Lithium Ion Batteries; ACS Applied Energy Materials, 1, 3171-3179 (2018).

  19. Yan, G.; Lian, Y.; Gu, Y.; Yang, C.; Sun, H.; Mu, Q.; Li, Q.; Zhu, W.; Zheng, X.; Chen, M.; Zhu, J.; Deng, Z*.;Peng, Y*. Phase and Morphology Transformation of MnO2 Induced by Ionic Liquids toward Efficient Water Oxidation; ACS Catalysis, 8, 10137-10147 (2018).

  20. Zhu, W.; Zhang, C.; Li, Q.; Xiong, L.; Chen, R.; Wan, X.; Wang, Z.; Chen, W.; Deng, Z.*;Peng, Y*. Selective reduction of CO2 by conductive MOF nanosheets as an efficient co-catalyst under visible light illumination; Applied Catalysis B: Environmental, 238, 339-345 (2018).

  21. Shao, Q.; Wang, Y.; Yang. S.; Lu, K.; Zhang, Y.; Tang, C.; Song, J.; Feng, Y.; Xiong, L.; Peng, Y.; Li, Y.; Xin, H.; Huang. X.; “Stabilizing and Activating Metastable Nickel Nanocrystals for Highly E?cient Hydrogen Evolution Electrocatalysis”; ACS Nano, 12, 11625-11631 (2018)

  22. Gu, J.; Yan, G.; Lian, Y.; Mu, Q.; Jin, H.; Zhang, Z.; Deng, Z.; Peng, Y*. Bandgap engineering of a lead-free defect perovskite Cs3Bi2Ithrough trivalent doping of Ru3+; RSC Advances, 8, 25802-25807 (2018).

  23. Peng, Y.; Krunglevicite. V.; Eryazici, I.; Hupp, J. T.; Farha, O. M*.; Yildirim T*. “Methane Storage in Metal-Organic Frameworks: Current Records, Surprise Findings, and Challenges”; J. Am. Chem. Soc., 135, 11887-11894 (2013).

  24. Peng, Y.; Srinivas, G.; Wilmer, C. E.; Snurr, R. Q.; Hupp, J. T.; Yildirim T*.; Farha, O. M*. “Simultaneously High Gravimetric and Volumetric Methane Uptake Characteristics of the Metal-Organic Framework NU-111”; Chem. Communs.,49, 2992-2994 (2013).

  25. Peng, Y.; Ellis, B. D.; Wang, X.; Fettinger, J. C.; Power, P. P*. “Reversible Reaction of Ethylene with Distannyes under Ambient Conditions”;Science, 325, 1668-1670 (2009).

  26. Peng, Y.; Guo, J. D.; Ellis, B. D.; Zhu, Z.; Fettinger, J. C.; Nagase, S.; Power, P. P*. “Reaction of Hydrogen or Ammonia with Unsaturated Germanium or Tin Molecules under Ambient Conditions: Oxidative Addition versus Arene Elimination”; J. Am. Chem. Soc., 131, 16272-16282 (2009).

  27. Peng, Y.; Ellis, B. D.; Wang, X.; Power, P. P*.“Diarylstannylene Activation of Hydrogenor Ammonia with Arene Elimination”;J. Am. Chem. Soc., 130, 12268-12269 (2008).